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conn.go
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conn.go
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package amqp
import (
"bytes"
"crypto/tls"
"errors"
"io"
"math"
"net"
"sync"
"time"
)
// Default connection options
const (
DefaultIdleTimeout = 1 * time.Minute
DefaultMaxFrameSize = 512
DefaultMaxSessions = 65536
)
// Errors
var (
ErrTimeout = errors.New("amqp: timeout waiting for response")
// ErrConnClosed is propagated to Session and Senders/Receivers
// when Client.Close() is called or the server closes the connection
// without specifying an error.
ErrConnClosed = errors.New("amqp: connection closed")
)
// ConnOption is a function for configuring an AMQP connection.
type ConnOption func(*conn) error
// ConnServerHostname sets the hostname sent in the AMQP
// Open frame and TLS ServerName (if not otherwise set).
//
// This is useful when the AMQP connection will be established
// via a pre-established TLS connection as the server may not
// know which hostname the client is attempting to connect to.
func ConnServerHostname(hostname string) ConnOption {
return func(c *conn) error {
c.hostname = hostname
return nil
}
}
// ConnTLS toggles TLS negotiation.
//
// Default: false.
func ConnTLS(enable bool) ConnOption {
return func(c *conn) error {
c.tlsNegotiation = enable
return nil
}
}
// ConnTLSConfig sets the tls.Config to be used during
// TLS negotiation.
//
// This option is for advanced usage, in most scenarios
// providing a URL scheme of "amqps://" or ConnTLS(true)
// is sufficient.
func ConnTLSConfig(tc *tls.Config) ConnOption {
return func(c *conn) error {
c.tlsConfig = tc
c.tlsNegotiation = true
return nil
}
}
// ConnIdleTimeout specifies the maximum period between receiving
// frames from the peer.
//
// Resolution is milliseconds. A value of zero indicates no timeout.
// This setting is in addition to TCP keepalives.
//
// Default: 1 minute.
func ConnIdleTimeout(d time.Duration) ConnOption {
return func(c *conn) error {
if d < 0 {
return errorNew("idle timeout cannot be negative")
}
c.idleTimeout = d
return nil
}
}
// ConnMaxFrameSize sets the maximum frame size that
// the connection will accept.
//
// Must be 512 or greater.
//
// Default: 512.
func ConnMaxFrameSize(n uint32) ConnOption {
return func(c *conn) error {
if n < 512 {
return errorNew("max frame size must be 512 or greater")
}
c.maxFrameSize = n
return nil
}
}
// ConnConnectTimeout configures how long to wait for the
// server during connection establishment.
//
// Once the connection has been established, ConnIdleTimeout
// applies. If duration is zero, no timeout will be applied.
//
// Default: 0.
func ConnConnectTimeout(d time.Duration) ConnOption {
return func(c *conn) error { c.connectTimeout = d; return nil }
}
// ConnMaxSessions sets the maximum number of channels.
//
// n must be in the range 1 to 65536.
//
// Default: 65536.
func ConnMaxSessions(n int) ConnOption {
return func(c *conn) error {
if n < 1 {
return errorNew("max sessions cannot be less than 1")
}
if n > 65536 {
return errorNew("max sessions cannot be greater than 65536")
}
c.channelMax = uint16(n - 1)
return nil
}
}
// ConnProperty sets an entry in the connection properties map sent to the server.
//
// This option can be used multiple times.
func ConnProperty(key, value string) ConnOption {
return func(c *conn) error {
if key == "" {
return errorNew("connection property key must not be empty")
}
if c.properties == nil {
c.properties = make(map[symbol]interface{})
}
c.properties[symbol(key)] = value
return nil
}
}
// ConnContainerID sets the container-id to use when opening the connection.
//
// A container ID will be randomly generated if this option is not used.
func ConnContainerID(id string) ConnOption {
return func(c *conn) error {
c.containerID = id
return nil
}
}
// conn is an AMQP connection.
type conn struct {
net net.Conn // underlying connection
connectTimeout time.Duration // time to wait for reads/writes during conn establishment
// TLS
tlsNegotiation bool // negotiate TLS
tlsComplete bool // TLS negotiation complete
tlsConfig *tls.Config // TLS config, default used if nil (ServerName set to Client.hostname)
// SASL
saslHandlers map[symbol]stateFunc // map of supported handlers keyed by SASL mechanism, SASL not negotiated if nil
saslComplete bool // SASL negotiation complete
// local settings
maxFrameSize uint32 // max frame size to accept
channelMax uint16 // maximum number of channels to allow
hostname string // hostname of remote server (set explicitly or parsed from URL)
idleTimeout time.Duration // maximum period between receiving frames
properties map[symbol]interface{} // additional properties sent upon connection open
containerID string // set explicitly or randomly generated
// peer settings
peerIdleTimeout time.Duration // maximum period between sending frames
peerMaxFrameSize uint32 // maximum frame size peer will accept
// conn state
errMu sync.Mutex // mux holds errMu from start until shutdown completes; operations are sequential before mux is started
err error // error to be returned to client
done chan struct{} // indicates the connection is done
// mux
newSession chan newSessionResp // new Sessions are requested from mux by reading off this channel
delSession chan *Session // session completion is indicated to mux by sending the Session on this channel
connErr chan error // connReader/Writer notifications of an error
closeMux chan struct{} // indicates that the mux should stop
closeMuxOnce sync.Once
// connReader
rxProto chan protoHeader // protoHeaders received by connReader
rxFrame chan frame // AMQP frames received by connReader
rxDone chan struct{}
connReaderRun chan func() // functions to be run by conn reader (set deadline on conn to run)
// connWriter
txFrame chan frame // AMQP frames to be sent by connWriter
txBuf buffer // buffer for marshaling frames before transmitting
txDone chan struct{}
}
type newSessionResp struct {
session *Session
err error
}
func newConn(netConn net.Conn, opts ...ConnOption) (*conn, error) {
c := &conn{
net: netConn,
maxFrameSize: DefaultMaxFrameSize,
peerMaxFrameSize: DefaultMaxFrameSize,
channelMax: DefaultMaxSessions - 1, // -1 because channel-max starts at zero
idleTimeout: DefaultIdleTimeout,
containerID: randString(40),
done: make(chan struct{}),
connErr: make(chan error, 2), // buffered to ensure connReader/Writer won't leak
closeMux: make(chan struct{}),
rxProto: make(chan protoHeader),
rxFrame: make(chan frame),
rxDone: make(chan struct{}),
connReaderRun: make(chan func(), 1), // buffered to allow queueing function before interrupt
newSession: make(chan newSessionResp),
delSession: make(chan *Session),
txFrame: make(chan frame),
txDone: make(chan struct{}),
}
// apply options
for _, opt := range opts {
if err := opt(c); err != nil {
return nil, err
}
}
return c, nil
}
func (c *conn) initTLSConfig() {
// create a new config if not already set
if c.tlsConfig == nil {
c.tlsConfig = new(tls.Config)
}
// TLS config must have ServerName or InsecureSkipVerify set
if c.tlsConfig.ServerName == "" && !c.tlsConfig.InsecureSkipVerify {
c.tlsConfig.ServerName = c.hostname
}
}
func (c *conn) start() error {
// start reader
go c.connReader()
// run connection establishment state machine
for state := c.negotiateProto; state != nil; {
state = state()
}
// check if err occurred
if c.err != nil {
close(c.txDone) // close here since connWriter hasn't been started yet
_ = c.Close()
return c.err
}
// start multiplexor and writer
go c.mux()
go c.connWriter()
return nil
}
func (c *conn) Close() error {
c.closeMuxOnce.Do(func() { close(c.closeMux) })
err := c.getErr()
if err == ErrConnClosed {
return nil
}
return err
}
// close should only be called by conn.mux.
func (c *conn) close() {
close(c.done) // notify goroutines and blocked functions to exit
// wait for writing to stop, allows it to send the final close frame
<-c.txDone
err := c.net.Close()
switch {
// conn.err already set
case c.err != nil:
// conn.err not set and c.net.Close() returned a non-nil error
case err != nil:
c.err = err
// no errors
default:
c.err = ErrConnClosed
}
// check rxDone after closing net, otherwise may block
// for up to c.idleTimeout
<-c.rxDone
}
// getErr returns conn.err.
//
// Must only be called after conn.done is closed.
func (c *conn) getErr() error {
c.errMu.Lock()
defer c.errMu.Unlock()
return c.err
}
// mux is started in it's own goroutine after initial connection establishment.
// It handles muxing of sessions, keepalives, and connection errors.
func (c *conn) mux() {
var (
// allocated channels
channels = &bitmap{max: uint32(c.channelMax)}
// create the next session to allocate
nextChannel, _ = channels.next()
nextSession = newSessionResp{session: newSession(c, uint16(nextChannel))}
// map channels to sessions
sessionsByChannel = make(map[uint16]*Session)
sessionsByRemoteChannel = make(map[uint16]*Session)
)
// hold the errMu lock until error or done
c.errMu.Lock()
defer c.errMu.Unlock()
defer c.close() // defer order is important. c.errMu unlock indicates that connection is finally complete
for {
// check if last loop returned an error
if c.err != nil {
return
}
select {
// error from connReader
case c.err = <-c.connErr:
// new frame from connReader
case fr := <-c.rxFrame:
var (
session *Session
ok bool
)
switch body := fr.body.(type) {
// Server initiated close.
case *performClose:
if body.Error != nil {
c.err = body.Error
} else {
c.err = ErrConnClosed
}
return
// RemoteChannel should be used when frame is Begin
case *performBegin:
if body.RemoteChannel == nil {
break
}
session, ok = sessionsByChannel[*body.RemoteChannel]
if !ok {
break
}
session.remoteChannel = fr.channel
sessionsByRemoteChannel[fr.channel] = session
default:
session, ok = sessionsByRemoteChannel[fr.channel]
}
if !ok {
c.err = errorErrorf("unexpected frame: %#v", fr.body)
continue
}
select {
case session.rx <- fr:
case <-c.closeMux:
return
}
// new session request
//
// Continually try to send the next session on the channel,
// then add it to the sessions map. This allows us to control ID
// allocation and prevents the need to have shared map. Since new
// sessions are far less frequent than frames being sent to sessions,
// this avoids the lock/unlock for session lookup.
case c.newSession <- nextSession:
if nextSession.err != nil {
continue
}
// save session into map
ch := nextSession.session.channel
sessionsByChannel[ch] = nextSession.session
// get next available channel
next, ok := channels.next()
if !ok {
nextSession = newSessionResp{err: errorErrorf("reached connection channel max (%d)", c.channelMax)}
continue
}
// create the next session to send
nextSession = newSessionResp{session: newSession(c, uint16(next))}
// session deletion
case s := <-c.delSession:
delete(sessionsByChannel, s.channel)
delete(sessionsByRemoteChannel, s.remoteChannel)
channels.remove(uint32(s.channel))
// connection is complete
case <-c.closeMux:
return
}
}
}
// connReader reads from the net.Conn, decodes frames, and passes them
// up via the conn.rxFrame and conn.rxProto channels.
func (c *conn) connReader() {
defer close(c.rxDone)
buf := new(buffer)
var (
negotiating = true // true during conn establishment, check for protoHeaders
currentHeader frameHeader // keep track of the current header, for frames split across multiple TCP packets
frameInProgress bool // true if in the middle of receiving data for currentHeader
)
for {
switch {
// Cheaply reuse free buffer space when fully read.
case buf.len() == 0:
buf.reset()
// Prevent excessive/unbounded growth by shifting data to beginning of buffer.
case int64(buf.i) > int64(c.maxFrameSize):
buf.reclaim()
}
// need to read more if buf doesn't contain the complete frame
// or there's not enough in buf to parse the header
if frameInProgress || buf.len() < frameHeaderSize {
if c.idleTimeout > 0 {
_ = c.net.SetReadDeadline(time.Now().Add(c.idleTimeout))
}
err := buf.readFromOnce(c.net)
if err != nil {
select {
// check if error was due to close in progress
case <-c.done:
return
// if there is a pending connReaderRun function, execute it
case f := <-c.connReaderRun:
f()
continue
// send error to mux and return
default:
c.connErr <- err
return
}
}
}
// read more if buf doesn't contain enough to parse the header
if buf.len() < frameHeaderSize {
continue
}
// during negotiation, check for proto frames
if negotiating && bytes.Equal(buf.bytes()[:4], []byte{'A', 'M', 'Q', 'P'}) {
p, err := parseProtoHeader(buf)
if err != nil {
c.connErr <- err
return
}
// negotiation is complete once an AMQP proto frame is received
if p.ProtoID == protoAMQP {
negotiating = false
}
// send proto header
select {
case <-c.done:
return
case c.rxProto <- p:
}
continue
}
// parse the header if a frame isn't in progress
if !frameInProgress {
var err error
currentHeader, err = parseFrameHeader(buf)
if err != nil {
c.connErr <- err
return
}
frameInProgress = true
}
// check size is reasonable
if currentHeader.Size > math.MaxInt32 { // make max size configurable
c.connErr <- errorNew("payload too large")
return
}
bodySize := int64(currentHeader.Size - frameHeaderSize)
// the full frame has been received
if int64(buf.len()) < bodySize {
continue
}
frameInProgress = false
// check if body is empty (keepalive)
if bodySize == 0 {
continue
}
// parse the frame
b, ok := buf.next(bodySize)
if !ok {
c.connErr <- io.EOF
return
}
parsedBody, err := parseFrameBody(&buffer{b: b})
if err != nil {
c.connErr <- err
return
}
// send to mux
select {
case <-c.done:
return
case c.rxFrame <- frame{channel: currentHeader.Channel, body: parsedBody}:
}
}
}
func (c *conn) connWriter() {
defer close(c.txDone)
// disable write timeout
if c.connectTimeout != 0 {
c.connectTimeout = 0
_ = c.net.SetWriteDeadline(time.Time{})
}
var (
// keepalives are sent at a rate of 1/2 idle timeout
keepaliveInterval = c.peerIdleTimeout / 2
// 0 disables keepalives
keepalivesEnabled = keepaliveInterval > 0
// set if enable, nil if not; nil channels block forever
keepalive <-chan time.Time
)
if keepalivesEnabled {
ticker := time.NewTicker(keepaliveInterval)
defer ticker.Stop()
keepalive = ticker.C
}
var err error
for {
if err != nil {
c.connErr <- err
return
}
select {
// frame write request
case fr := <-c.txFrame:
err = c.writeFrame(fr)
if err == nil && fr.done != nil {
close(fr.done)
}
// keepalive timer
case <-keepalive:
_, err = c.net.Write(keepaliveFrame)
// It would be slightly more efficient in terms of network
// resources to reset the timer each time a frame is sent.
// However, keepalives are small (8 bytes) and the interval
// is usually on the order of minutes. It does not seem
// worth it to add extra operations in the write path to
// avoid. (To properly reset a timer it needs to be stopped,
// possibly drained, then reset.)
// connection complete
case <-c.done:
// send close
cls := &performClose{}
debug(1, "TX: %s", cls)
_ = c.writeFrame(frame{
type_: frameTypeAMQP,
body: cls,
})
return
}
}
}
// writeFrame writes a frame to the network, may only be used
// by connWriter after initial negotiation.
func (c *conn) writeFrame(fr frame) error {
if c.connectTimeout != 0 {
_ = c.net.SetWriteDeadline(time.Now().Add(c.connectTimeout))
}
// writeFrame into txBuf
c.txBuf.reset()
err := writeFrame(&c.txBuf, fr)
if err != nil {
return err
}
// validate the frame isn't exceeding peer's max frame size
requiredFrameSize := c.txBuf.len()
if uint64(requiredFrameSize) > uint64(c.peerMaxFrameSize) {
return errorErrorf("%T frame size %d larger than peer's max frame size", fr, requiredFrameSize, c.peerMaxFrameSize)
}
// write to network
_, err = c.net.Write(c.txBuf.bytes())
return err
}
// writeProtoHeader writes an AMQP protocol header to the
// network
func (c *conn) writeProtoHeader(pID protoID) error {
if c.connectTimeout != 0 {
_ = c.net.SetWriteDeadline(time.Now().Add(c.connectTimeout))
}
_, err := c.net.Write([]byte{'A', 'M', 'Q', 'P', byte(pID), 1, 0, 0})
return err
}
// keepaliveFrame is an AMQP frame with no body, used for keepalives
var keepaliveFrame = []byte{0x00, 0x00, 0x00, 0x08, 0x02, 0x00, 0x00, 0x00}
// wantWriteFrame is used by sessions and links to send frame to
// connWriter.
func (c *conn) wantWriteFrame(fr frame) error {
select {
case c.txFrame <- fr:
return nil
case <-c.done:
return c.getErr()
}
}
// stateFunc is a state in a state machine.
//
// The state is advanced by returning the next state.
// The state machine concludes when nil is returned.
type stateFunc func() stateFunc
// negotiateProto determines which proto to negotiate next
func (c *conn) negotiateProto() stateFunc {
// in the order each must be negotiated
switch {
case c.tlsNegotiation && !c.tlsComplete:
return c.exchangeProtoHeader(protoTLS)
case c.saslHandlers != nil && !c.saslComplete:
return c.exchangeProtoHeader(protoSASL)
default:
return c.exchangeProtoHeader(protoAMQP)
}
}
type protoID uint8
// protocol IDs received in protoHeaders
const (
protoAMQP protoID = 0x0
protoTLS protoID = 0x2
protoSASL protoID = 0x3
)
// exchangeProtoHeader performs the round trip exchange of protocol
// headers, validation, and returns the protoID specific next state.
func (c *conn) exchangeProtoHeader(pID protoID) stateFunc {
// write the proto header
c.err = c.writeProtoHeader(pID)
if c.err != nil {
return nil
}
// read response header
p, err := c.readProtoHeader()
if err != nil {
c.err = err
return nil
}
if pID != p.ProtoID {
c.err = errorErrorf("unexpected protocol header %#00x, expected %#00x", p.ProtoID, pID)
return nil
}
// go to the proto specific state
switch pID {
case protoAMQP:
return c.openAMQP
case protoTLS:
return c.startTLS
case protoSASL:
return c.negotiateSASL
default:
c.err = errorErrorf("unknown protocol ID %#02x", p.ProtoID)
return nil
}
}
// readProtoHeader reads a protocol header packet from c.rxProto.
func (c *conn) readProtoHeader() (protoHeader, error) {
var deadline <-chan time.Time
if c.connectTimeout != 0 {
deadline = time.After(c.connectTimeout)
}
var p protoHeader
select {
case p = <-c.rxProto:
return p, nil
case err := <-c.connErr:
return p, err
case fr := <-c.rxFrame:
return p, errorErrorf("unexpected frame %#v", fr)
case <-deadline:
return p, ErrTimeout
}
}
// startTLS wraps the conn with TLS and returns to Client.negotiateProto
func (c *conn) startTLS() stateFunc {
c.initTLSConfig()
done := make(chan struct{})
// this function will be executed by connReader
c.connReaderRun <- func() {
_ = c.net.SetReadDeadline(time.Time{}) // clear timeout
// wrap existing net.Conn and perform TLS handshake
tlsConn := tls.Client(c.net, c.tlsConfig)
if c.connectTimeout != 0 {
_ = tlsConn.SetWriteDeadline(time.Now().Add(c.connectTimeout))
}
c.err = tlsConn.Handshake()
// swap net.Conn
c.net = tlsConn
c.tlsComplete = true
close(done)
}
// set deadline to interrupt connReader
_ = c.net.SetReadDeadline(time.Time{}.Add(1))
<-done
if c.err != nil {
return nil
}
// go to next protocol
return c.negotiateProto
}
// openAMQP round trips the AMQP open performative
func (c *conn) openAMQP() stateFunc {
// send open frame
open := &performOpen{
ContainerID: c.containerID,
Hostname: c.hostname,
MaxFrameSize: c.maxFrameSize,
ChannelMax: c.channelMax,
IdleTimeout: c.idleTimeout,
Properties: c.properties,
}
debug(1, "TX: %s", open)
c.err = c.writeFrame(frame{
type_: frameTypeAMQP,
body: open,
channel: 0,
})
if c.err != nil {
return nil
}
// get the response
fr, err := c.readFrame()
if err != nil {
c.err = err
return nil
}
o, ok := fr.body.(*performOpen)
if !ok {
c.err = errorErrorf("unexpected frame type %T", fr.body)
return nil
}
debug(1, "RX: %s", o)
// update peer settings
if o.MaxFrameSize > 0 {
c.peerMaxFrameSize = o.MaxFrameSize
}
if o.IdleTimeout > 0 {
// TODO: reject very small idle timeouts
c.peerIdleTimeout = o.IdleTimeout
}
if o.ChannelMax < c.channelMax {
c.channelMax = o.ChannelMax
}
// connection established, exit state machine
return nil
}
// negotiateSASL returns the SASL handler for the first matched
// mechanism specified by the server
func (c *conn) negotiateSASL() stateFunc {
// read mechanisms frame
fr, err := c.readFrame()
if err != nil {
c.err = err
return nil
}
sm, ok := fr.body.(*saslMechanisms)
if !ok {
c.err = errorErrorf("unexpected frame type %T", fr.body)
return nil
}
debug(1, "RX: %s", sm)
// return first match in c.saslHandlers based on order received
for _, mech := range sm.Mechanisms {
if state, ok := c.saslHandlers[mech]; ok {
return state
}
}
// no match
c.err = errorErrorf("no supported auth mechanism (%v)", sm.Mechanisms) // TODO: send "auth not supported" frame?
return nil
}
// saslOutcome processes the SASL outcome frame and return Client.negotiateProto
// on success.
//
// SASL handlers return this stateFunc when the mechanism specific negotiation
// has completed.
func (c *conn) saslOutcome() stateFunc {
// read outcome frame
fr, err := c.readFrame()
if err != nil {
c.err = err
return nil
}
so, ok := fr.body.(*saslOutcome)
if !ok {
c.err = errorErrorf("unexpected frame type %T", fr.body)
return nil
}
debug(1, "RX: %s", so)
// check if auth succeeded
if so.Code != codeSASLOK {
c.err = errorErrorf("SASL PLAIN auth failed with code %#00x: %s", so.Code, so.AdditionalData) // implement Stringer for so.Code
return nil
}
// return to c.negotiateProto
c.saslComplete = true
return c.negotiateProto
}
// readFrame is used during connection establishment to read a single frame.
//
// After setup, conn.mux handles incoming frames.
func (c *conn) readFrame() (frame, error) {
var deadline <-chan time.Time
if c.connectTimeout != 0 {
deadline = time.After(c.connectTimeout)
}
var fr frame
select {
case fr = <-c.rxFrame:
return fr, nil
case err := <-c.connErr:
return fr, err
case p := <-c.rxProto:
return fr, errorErrorf("unexpected protocol header %#v", p)
case <-deadline:
return fr, ErrTimeout
}
}